CN110571567A - staged release electrical connector assembly - Google Patents
staged release electrical connector assembly Download PDFInfo
- Publication number
- CN110571567A CN110571567A CN201910484991.8A CN201910484991A CN110571567A CN 110571567 A CN110571567 A CN 110571567A CN 201910484991 A CN201910484991 A CN 201910484991A CN 110571567 A CN110571567 A CN 110571567A
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- China
- Prior art keywords
- connector
- latch
- electrical
- blocking portion
- stop tab
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/627—Snap or like fastening
- H01R13/6275—Latching arms not integral with the housing
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/40—Securing contact members in or to a base or case; Insulating of contact members
- H01R13/405—Securing in non-demountable manner, e.g. moulding, riveting
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/46—Bases; Cases
- H01R13/502—Bases; Cases composed of different pieces
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/627—Snap or like fastening
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/629—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/629—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances
- H01R13/631—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances for engagement only
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R31/00—Coupling parts supported only by co-operation with counterpart
- H01R31/02—Intermediate parts for distributing energy to two or more circuits in parallel, e.g. splitter
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/64—Means for preventing incorrect coupling
- H01R13/641—Means for preventing incorrect coupling by indicating incorrect coupling; by indicating correct or full engagement
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R2201/00—Connectors or connections adapted for particular applications
- H01R2201/26—Connectors or connections adapted for particular applications for vehicles
Landscapes
- Details Of Connecting Devices For Male And Female Coupling (AREA)
Abstract
the present application relates to a staged release electrical connector assembly. The electrical connector assembly includes a first connector including a first electrical terminal and a second connector including a second electrical terminal. The first connector and the second connector are movable from a mated position toward a unmated position. The second connector includes a first blocking portion, a second blocking portion, and a third blocking portion. The electrical connector assembly further includes a connector position assurance member movable between an assurance position and a pre-lock position. The connector position assurance member includes a stop tab. The first blocking portion is positioned to engage the stop tab when the connector position assurance member is in the pre-lock position. The second blocking portion is positioned to engage the stop tab when the first connector is located a first distance from the second connector. The third stop is positioned to engage the stop tab when the first connector is located at a second distance from the second connector.
Description
Background
The present invention relates to electrical connector assemblies. More particularly, the present invention relates to an electrical connector assembly that includes features that increase the amount of time required to disconnect the electrical connector assembly.
A typical electrical connector assembly includes a first connector and a second connector that can be selectively mated with one another. Each of the first and second connectors supports one or more electrical terminals located therein. When the first connector is mated with the second connector, the electrical terminals supported within the first connector mate with the appropriate electrical terminals supported within the second connector.
The electrical connector assembly may additionally include a connector position assurance member (connector position assurance) that the first and second connectors (and the electrical terminals supported therein) are properly mated when assembled. A typical connector position assurance member is a lock-like device that is attached to the first connector and is initially in a pre-lock position. The connector position assurance member may then be moved from the pre-lock position to the assurance position when the first connector is properly mated with the second connector. If the first connector is not properly mated with the second connector, the connector position assurance member will not be able to move to the assurance position. This allows an operator assembling the electrical connector assembly to confirm that the first and second connectors (and the electrical terminals supported therein) are properly mated at the time of assembly.
In the automotive industry, the electrical connection to an electrical energy source (such as the drive battery of a battery electric vehicle) is typically a high voltage connection, and therefore high voltage connectors are used that support high voltage electrical terminals. In many cases, the circuitry for such high voltage connections typically includes a safety feature known as a high voltage interlock loop. A typical high voltage interlock loop is a separate (usually low voltage) circuit that is operatively connected to the high voltage circuit. The high voltage interlock loop is arranged such that the low voltage circuit must first be opened before the high voltage circuit can be opened subsequently. When the controller detects that the low voltage circuit has opened, it disables the high voltage circuit, thereby preventing current from continuing to flow. Furthermore, the controller will not restore the current to the high voltage circuit until the low voltage circuit is closed. Thus, the high voltage interlock loop operates to disable the high voltage circuit before the high voltage terminals are separated and not to subsequently enable the high voltage circuit until after the high voltage terminals are mated. It would be advantageous to have an alternative electrical connector assembly that delays an operator from separating the first connector from the second connector.
summary of The Invention
The present invention relates to an electrical connector assembly comprising a first connector comprising a first electrical terminal and a second connector comprising a second electrical terminal. The first connector and the second connector are movable from a mated position (mated position) toward an unmated position (unmated position). The second connector includes a first barrier (block), a second barrier, and a third barrier. The electrical connector assembly further includes a connector position assurance member that is movable between an assurance position and a pre-lock position. The connector position assurance member includes a stop tab. The first blocking portion is positioned to engage the stop tab when the connector position assurance member is in the pre-lock position. The second blocking portion is positioned to engage the stop tab when the first connector is located a first distance from the second connector. The third stop is positioned to engage the stop tab when the first connector is located at a second distance from the second connector.
Various aspects of this invention will become apparent to those skilled in the art from the following detailed description of the preferred embodiment, when read in light of the accompanying drawings.
Drawings
Fig. 1 is an exploded perspective view of a prior art electrical connector assembly including a first prior art connector, a second prior art connector, and a prior art connector position assurance member.
Fig. 2 is a perspective view of the prior art electrical connector assembly illustrated in fig. 1, shown assembled.
Fig. 3 is a cross-sectional view taken along line 3-3 of fig. 2, showing the connector position assurance member in the assurance position.
Fig. 4 is a view similar to fig. 3 showing the connector position assurance member moved out of the assurance position relative to the latch on the first connector.
FIG. 5 is a view similar to FIG. 4 showing the latch moved to an open position.
fig. 6 is a view similar to fig. 5 showing the connector position assurance member and latch moved to a pre-mated position relative to the second connector.
Fig. 7 is an exploded perspective view of an electrical connector assembly according to the present invention including a first connector, a second connector and a connector position assurance member.
Fig. 8 is an enlarged perspective view from below of the connector position assurance member illustrated in fig. 7.
Fig. 9 is an enlarged perspective view of the electrical connector assembly illustrated in fig. 7, shown assembled.
3 fig. 3 10A 3 is 3a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3a 3- 3a 3 of 3 fig. 3 9 3, 3 showing 3a 3 portion 3 of 3 the 3 channel 3 when 3 the 3 connector 3 position 3 assurance 3 member 3 is 3 in 3 the 3 assurance 3 position 3. 3
Fig. 10B is a cross-sectional view taken along line B-B of fig. 9, showing a portion of the lock when the connector position assurance member is in the assurance position.
Fig. 11A-17A are cross-sectional views similar to fig. 10A showing the sequence of movement when the first connector is unmated from the second connector.
11B-17B are cross-sectional views similar to FIG. 10B illustrating the sequence of positions of the lock corresponding to the sequence of movements shown in FIGS. 11A-17A, respectively.
Description of The Preferred Embodiment
Referring now to the drawings, there is illustrated in fig. 1 an exploded perspective view of a prior art electrical connector assembly, generally designated 10. The prior art electrical connector assembly 10 includes a first prior art connector 12, a second prior art connector 14, and a prior art Connector Position Assurance (CPA) 16. The first prior art connector 12 extends from a mating end 12a to an insertion end 12 b. First prior art connector 12 includes a first connector body 18 having an integrally molded latch 20. A latch cover, generally indicated at 22, provides protection for the latch 20 and includes two side walls 24 extending from the first connector body 18 and an upper cover 26 extending between the side walls 24 (see fig. 3-6). The upper cover 26 is not shown in fig. 1 and 2 so that details of the latch 20 are visible.
the latch 20 includes a latch base 28, the latch base 28 being attached to the first connector body 18 by two parallel resilient latch arms 30, the two parallel latch arms 30 allowing limited movement of the latch base 28 relative to the first connector body 18, as will be described below. Two latch arms 30 extend from the latch base 28, and a latch hook 32 extends between the latch arms 30. Each latch arm 30 includes a guide tab 34 on its outer edge.
Prior art CPA 16 includes a CPA base 36 and two parallel CPA arms 38 extending from CPA base 36. Each CPA arm 38 includes guide channels 40 (one visible in fig. 1) on its inner edge. Prior art CPA 16 includes CPA tongues 42 extending from CPA base 36 substantially parallel to CPA arms 38 and between CPA arms 38. As will be described below, the CPA tongue 42 is resilient and can flex relative to the CPA base 36.
To attach prior art CPA 16 to first prior art connector 12, each of guide tabs 34 on latch 20 is positioned in one of guide channels 40 on prior art CPA 16. The CPA base 36 is positioned such that the CPA tongue 42 is located between the latch base 28 and the first connector body 18 and extends between the resilient arms 30 of the latch 20. Further, the latch hook 32 is located between the CPA tongue 42 and the first connector body 18. When the prior art connector position assurance member 16 is installed on the first prior art connector 12, it is attached to the latch 20 and is movable in an assurance direction 44 relative to the latch 20, as will be described below.
Fig. 2 is a perspective view similar to fig. 1 showing the prior art electrical connector assembly 10 in a mated position. As shown, prior art CPA 16 is attached to first prior art connector 12, and first prior art connector 12 is mated with second prior art connector 14. The first prior art connector 12 is mated with the second prior art connector 14 by moving the first prior art connector 12 into engagement with the second prior art connector 14 in the mating direction 46. The prior art electrical connector assembly 10 is shown with the first prior art connector 12 in a fully mated position with the second prior art connector 14 such that electrical terminals (not shown) supported within the first prior art connector 12 mate with corresponding electrical terminals (not shown) supported within the second prior art connector 14. Further, prior art CPA 16 is shown in a secure position with respect to first prior art connector 12. When prior art CPA 16 is in the assurance position, locking tab 48 on prior art CPA 16 is located in locking notch 50 on first prior art connector 12.
Referring to fig. 3, a cross-sectional view of the prior art electrical connector assembly 10 is shown taken along line 3-3 of fig. 2. The cross-sectional view shown in figure 3 is taken through the center of the CPA tongue 42. The upper cover 26 is shown in fig. 3, and as shown, the upper cover 26 exposes the latch base 28 so that an operator can depress the latch base 28. The latching hooks 32 on the latch 20 engage the catches 52 on the second prior art connector 14 and prevent the first prior art connector 12 from moving relative to the second prior art connector 14 in a direction opposite the mating direction 46. To release the latch 20 from the catch 52, an operator may apply a release force 54 to the latch base 28. However, with the prior art connector position assurance member 16 in the assured position, the latch 20 is prevented from moving relative to the catch 52.
As previously discussed and shown in fig. 2, the guide channel 40 on the CPA arm 38 engages the guide projection 34 on the latch arm 30. Therefore, when latch 20 is moved relative to first connector body 18 by flexing resilient arm 30, prior art CPA 16 will also move relative to first connector body 18 along with latch 20. However, when prior art CPA 16 is in the assurance position, locking tab 48 on prior art CPA 16 is located in locking recess 50 on first prior art connector 12, which prevents prior art CPA 16 and latch 20 from moving relative to first connector body 18. Thus, latch 20 will not release latch 52 and first prior art connector 12 may not move relative to second prior art connector 14 opposite mating direction 46.
Referring to fig. 4, a view similar to fig. 3 is shown in which prior art CPA 16 is moved to a pre-lock position relative to first prior art connector 12 opposite assurance direction 44. The CPA tongue 42 comprises CPA latches 56, the CPA latches 56 extending from the CPA tongue 42 towards the first connector body 18. When the prior art CPA 16 is moved away from the assurance position, the ramped release surface 58 of the CPA latch 56 engages the latch hook 32 and causes the CPA latch 56 and the CPA tongue 42 to move away from the first connector body 18 relative to the CPA base 36 to a deflected position. When the CPA tongue 42 is deflected, the CPA arm 38 remains engaged with the latch arm 30 while the CPA tongue 42 is bent. When prior art CPA 16 has been moved to the pre-lock position, CPA tongue 42 remains in the deflected position and engages latch 52 on second prior art connector 14.
When the prior art CPA is in the pre-lock position, the locking tab 48 is no longer located in the locking recess 50. Thus, latch 20 and prior art CPA 16 are able to move relative to first connector body 18. When an operator applies a release force 54 to latch base 28, resilient arm 30 flexes and allows latch 20 to move to the open position shown in fig. 5. With the latch 20 in the open position, the latch hook 32 moves away from the first connector body 18 and no longer engages the catch 52. Thus, the first prior art connector 12 may move relative to the second prior art connector 14 opposite the mating direction 46.
Referring to fig. 6, the first prior art connector 12 is shown moved to a pre-mating position relative to the second prior art connector 14 opposite the mating direction 46. When the operator stops applying the release force 54 to the latch base 28, the latch 20 will spring back to the closed position as shown. However, because the latching hooks 32 are not engaged with the catches 52, the first prior art connector 12 can be separated from the second prior art connector 14.
To move the first prior art connector 12 to the mated position relative to the second prior art connector 14, the previously described process is reversed. As shown in fig. 6, the first prior art connector 12 is placed in a pre-mated position relative to the second prior art connector 14. The first prior art connector 12 moves relative to the second prior art connector 14 in the mating direction 46. The catch 52 includes an angled hook guide 60, the hook guide 60 engaging the latch hook 32 and bending the latch 20 at the resilient arm 30 such that the latch 20 is deflected to an open position, as shown in fig. 5. When the latch hook 32 has moved past the catch 52 in the mating direction 46, the latch will spring back to the closed position, as shown in fig. 4. At this point, the first prior art connector 12 is mated with the second prior art connector 14. The operator then pushes prior art CPA 16 against first prior art connector 12 in assurance direction 44 to the assurance position, as shown in fig. 3. At this point, the locking tab 48 is located in the locking notch 50, which prevents the latch 20 from moving relative to the first connector body 18. The electrical connector assembly 10 is now in the mated position as shown in fig. 2 and 3.
Referring now to fig. 7, an exploded perspective view of an electrical connector assembly, generally designated 110, is shown in accordance with one embodiment of the present invention. The electrical connector assembly 110 includes a first connector 112, a second connector 114, and a CPA 116. The illustrated first connector 112 is made of plastic, but may be made of any desired material. The first connector 112 includes a first connector body 118, the first connector body 118 extending from an engagement end 118a to an insertion end 118 b. The first connector 112 also includes a latch 120, the latch 120 being attached to the first connector body 118. The illustrated latch 120 is integrally molded with the first connector body 118, but may be a separate piece if desired. The first connector 112 also includes a latch cover, generally indicated at 122. The latch cover 122 includes two side walls 124 extending from the first connector body 118 and an upper cover 126 extending between the side walls 124. The latch 120 is generally located between the first connector body 118 and the latch cover 122 to protect the latch 120 from accidental contact.
The first connector 112 is configured to hold a plurality of electrical terminals, including a first primary electrical terminal 128 and a first secondary electrical terminal 130. In the illustrated embodiment, the first connector 112 holds two first primary electrical terminals 128 and two first auxiliary electrical terminals 130, but it may hold any desired number or any desired combination of electrical terminals 128 and electrical terminals 130. In the illustrated embodiment, electrical terminals 128 and 130 are female electrical terminals, but they may be any desired type of electrical terminals. The illustrated first primary electrical terminal 128 is configured to be connected to a primary conductor (not shown) that is part of a high voltage circuit, and the illustrated first secondary electrical terminal 130 is configured to be connected to a secondary conductor (not shown) that is part of a High Voltage Interlock Loop (HVIL).
The illustrated second connector 114 is made of plastic, but may be made of any desired material. The second connector 114 includes a second connector body 132, the second connector body 132 extending from a mating end 132a to an insertion end 132 b. The second connector 114 is shown as a plug (header), but may be any desired type of terminal.
The second connector 114 is configured to hold a plurality of electrical terminals, including a second main electrical terminal 134 and a second auxiliary electrical terminal 136. In the illustrated embodiment, the second connector 114 holds two second main electrical terminals 134 and two second auxiliary electrical terminals 136, but it may hold any desired number or any desired combination of electrical terminals 134 and 136. In the illustrated embodiment, electrical terminals 134 and 136 are male electrical terminals, but they may be any desired type of electrical terminals. The illustrated second main electrical terminal 134 is configured to be connected to an electrical device (not shown) that is part of a high voltage circuit, and the illustrated second auxiliary electrical terminal 136 is configured to be connected to an auxiliary wire (not shown) that is part of an HVIL.
CPA 116 is shown as being made of plastic, but may be made of any desired material. An enlarged perspective view of CPA 116 taken from below is shown in figure 8. CPA 116 includes a CPA base 138 and two parallel CPA arms 140 extending from CPA base 138. Each CPA arm 140 includes a guide channel 142 on its inner edge. CPA 116 includes CPA tongues 144, CPA tongues 144 extending from CPA base 138 generally parallel to CPA arms 140 and extending between CPA arms 140. The CPA tongue 144 is resilient and can flex relative to the CPA base 138.
In the illustrated embodiment, CPA 116 is attached to first connector 112 in a manner similar to the manner in which prior art CPA 16 is attached to first prior art connector 12. However, the electrical connector assembly 110 may include any desired type of connector position assurance member. The illustrated CPA 116 is attached to the first connector 112 by positioning a guide projection 146 on the latch 120 in a guide channel 142 on the CPA 116. The CPA base 138 is positioned such that the CPA tongue 144 is located between the latch base 148 and the first connector body 118 and extends between the resilient legs 150 that connect the latch base 148 to the first connector body 118. Further, the latch hook 152 is located between the CPA tongue 144 and the first connector body 118. When the illustrated CPA 116 is mounted on the first connector 112, it is attached to the latch 120 and is movable relative to the latch 120 in the assurance direction 154, as will be described below.
referring to fig. 9, a perspective view of the electrical connector assembly 110 in a mated position is illustrated. As shown herein, the first electrical terminals 128 and 130 are contained in the first connector 112, and the second electrical terminals 134 and 136 are contained in the second connector 114. The first connector 112 has been positioned adjacent to the second connector 114 and moved in the mating direction 156 relative to the second connector 114 such that the first connector 112 and the second connector 114 are in a mated position. The first main electrical terminal 128 mates with the second main electrical terminal 134 and the first auxiliary electrical terminal 130 mates with the second auxiliary electrical terminal 136.
CPA 116 is shown in fig. 9 in a pre-locked position relative to first connector body 118. In this position, the latch 120 is movable relative to the first connector body 118. Accordingly, an operator may apply a release force 158 to unlock the latch 120 in order to unmate the first connector 112 from the second connector 114, similar to the previously described prior art electrical connector 10. CPA 116 is movable relative to first connector 112 in assurance direction 154 to an assurance position in which a locking tab 160 on CPA 116 is seated in a locking notch 162 on first connector 112 to prevent movement of latch 120 relative to first connector body 118. In the illustrated embodiment, the assurance direction 154 is parallel to the mating direction 156. However, direction 154 and direction 156 may have any desired relative orientation.
The electrical connector assembly 110 also includes a release switch, generally indicated at 164. The release switch 164 is adapted to cause the electrical connector assembly 110 to have a staged release such that the first connector 112 is separated from the second connector 114 in multiple steps rather than in a single action. In the illustrated embodiment, the release switch 164 is a latch 120. However, the release switch 164 may be some other component on the electrical connector assembly 110, if desired. As will be described in greater detail below, when the first connector 112 and the second connector 114 are unmated, the first connector 112 may be moved a first distance opposite the mating direction 156 and then prevented from moving further until the release switch 164 is moved. As the release switch 164 moves, the first connector 112 may move an additional distance opposite the mating direction 156 and then be prevented from moving further until the release switch 164 moves again.
This staged release is advantageous because it introduces a time delay into the unmating of the electrical connector assembly 110 that increases the time between the separation of the auxiliary electrical terminal 130 and the auxiliary electrical terminal 136 and the subsequent separation of the main electrical terminal 128 and the main electrical terminal 134. As previously described, the illustrated auxiliary electrical terminals 130 and 136 are part of an HVIL. Thus, when the electrical connector assembly 110 is unmated, the HVIL will be opened and voltage will be removed from the high voltage circuit and will be given time to bleed off before the main electrical terminal 128 and the main electrical terminal 134 are separated and the high voltage circuit is opened.
Returning to fig. 7 and 8, CPA 116 includes a stop tab 166. The illustrated CPA 116 includes two stop tabs 166, one stop tab 166 extending from each of the CPA arms 140. However, the electrical connector assembly 110 may have any desired number of stop tabs 166 in any desired location. As shown in fig. 7, the second connector 114 includes a channel 168. The illustrated second connector 114 includes two channels 168, but may include any desired number of channels 168. When the first connector 112 is mated with the second connector 114, one of the illustrated stop tabs 166 will be positioned in each of the channels 168, as will be described below.
3 fig. 3 10A 3 and 3 10 3B 3 through 3 17A 3 and 3 17 3B 3 are 3 paired 3 cross 3- 3 sectional 3 views 3 illustrating 3 portions 3 of 3 the 3 electrical 3 connector 3 assembly 3 110 3 taken 3 along 3 lines 3a 3- 3a 3 and 3B 3- 3B 3 of 3 fig. 3 9 3. 3 Each of a pair of figures shows the electrical connector assembly 110 at a different stage of mating. The figure with suffix a is taken through one of the stop tabs 166 of CPA 116 such that the position of stop tab 166 relative to channel 168 is visible. The figure with suffix B is taken through the center of connector position assurance member 116 such that the position of CPA tongue 144 relative to latching hook 152 is visible.
as shown in fig. 10A and 10B, CPA 116 is in the assurance position with respect to first connector 112, locking tab 160 is located in locking recess 162, and stop tab 166 is located in channel 168. CPA 116 prevents latch 120 from moving relative to first connector body 118. The latching hooks 152 engage with catches 170 on the second connector 114, which prevents the first connector 112 from moving relative to the second connector 114 opposite the mating direction 156.
In the initial state shown in fig. 10A and 10B, the first main electrical terminal 128 is mated with the second main electrical terminal 134, and the first auxiliary electrical terminal 130 is mated with the second auxiliary electrical terminal 136. Thus, in this initial state, the high voltage circuit is closed, and the HVIL is also closed.
Referring to fig. 11A and 11B, CPA 116 is shown moving from the assurance position to the pre-lock position opposite assurance direction 154. When CPA 116 is in the pre-lock position, CPA 116 does not prevent an operator from moving latch 120 relative to first connector body 118. Further, the locking tab 160 is no longer located in the locking recess 162, and the stop tab 166 has engaged the first stop 172 located in the channel 168 on the first side 174 of the channel 168. In the illustrated embodiment, the first side 174 is the side of the channel 168 closest to the first connector body 118. The first stop 172 prevents the connector position assurance member 116 from moving further relative to the second connector 114 opposite the assurance direction 154. As seen in fig. 11B, the CPA latch 176 on the CPA tongue 144 engages the latch 170 and the CPA tongue 144 moves to a deflected position relative to the CPA base 138.
Referring to fig. 12A and 12B, a release force 158 has been applied to latch 120, which causes latch 120 to bend at resilient leg 150, such that latch 120 deflects to the open position. With the latch 120 in the open position, the latch hook 152 does not engage the catch 170 on the second connector 114. As latch 120 moves, CPA 116 also moves such that stop tab 166 moves to second side 178 of channel 168. The stop tab 166 then disengages (clear of) the first stop 172. In the illustrated embodiment, the second side 178 is the side of the channel 168 that is farther from the first connector body 118. Thus, in the state shown in fig. 12A and 12B, neither the latch 120 nor the stop tab 166 prevents the first connector 112 from moving relative to the second connector 114 opposite the mating direction 156. By switching the state of the release switch 164, the first connector 112 may be moved relative to the second connector 114 opposite the mating direction 156.
In the state shown in fig. 12A and 12B, the first main electrical terminal 128 is mated with the second main electrical terminal 134, and the first auxiliary electrical terminal 130 is mated with the second auxiliary electrical terminal 136. Thus, the high voltage circuit is closed and the HVIL is also closed. The latch 120 has moved to the open position, but the first connector 112 has not moved away from the second connector 114.
Referring to fig. 13A and 13B, the first connector 112 has been moved relative to the second connector 114 a first distance 180 opposite the mating direction 156. Between the state illustrated in fig. 12B and the state illustrated in fig. 13B, CPA 116 has not moved relative to latch 120, and CPA 116 and latch 120 have not moved relative to first connector body 118. As illustrated in fig. 13A and 13B, the latch 120 remains in the open position and the stop tab 166 remains on the second side 178 of the channel 168. Stop tab 166 has engaged second stop 182 on second side 178 of channel 168. Second blocking portion 182 prevents CPA 116 from moving farther relative to second connector 114 opposite mating direction 156. Because the connector position assurance member 116 is attached to the first connector 112, the second blocking portion 182 also prevents the first connector 112 from moving further relative to the second connector 114 opposite the mating direction 156.
In the state illustrated in fig. 13A and 13B, the first main electrical terminal 128 is mated with the second main electrical terminal 134 while the first auxiliary electrical terminal 130 is separated from the second auxiliary electrical terminal 136. Thus, during the release phase of the illustrated electrical connector assembly 110, the high voltage circuit is closed and the HVIL is open.
Referring to fig. 14A and 14B, release force 158 is no longer applied to latch 120 and latch 120 has rebounded to the closed position. Thus, the stop tab 166 has moved to the first side 174 of the channel 168 and disengaged from the second stop 182. Because the first connector 112 has been moved the first distance 180 relative to the second connector 114, the latching hooks 152 do not engage the catches 170 on the second connector 114. Thus, the first connector 112 may move relative to the second connector 114 opposite the mating direction 156.
in the state illustrated in fig. 14A and 14B, the first main electrical terminal 128 is mated with the second main electrical terminal 134 while the first auxiliary electrical terminal 130 is separated from the second auxiliary electrical terminal 136. Thus, during the release phase of the illustrated electrical connector assembly 110, the high voltage circuit is closed and the HVIL is open.
Referring to fig. 15A and 15B, the first connector 112 has been moved relative to the second connector 114 a second distance 184 opposite the mating direction 156. The stop tab 166 has engaged the third stop 186 on the first side 174 of the channel 168. Third stop 186 prevents CPA 116 from moving farther opposite mating direction 156 relative to second connector 114. Because the CPA 116 is attached to the first connector 112, the third blocking portion 186 also prevents the first connector 112 from moving farther opposite the mating direction 156 relative to the second connector 114.
in the state illustrated in fig. 15A and 15B, the first main electrical terminal 128 is mated with the second main electrical terminal 134 while the first auxiliary electrical terminal 130 is separated from the second auxiliary electrical terminal 136. Thus, during the release phase of the illustrated electrical connector assembly 10, the high voltage circuit is closed and the HVIL is open.
Referring to fig. 16A and 16B, a release force 158 has been applied to the latch 120, and the latch 120 is in the open position. Stop tab 166 moves to second side 178 of channel 168 and disengages from third stop 186. By switching the state of the release switch 164, the first connector 112 may be moved relative to the second connector 114 opposite the mating direction 156.
in the state illustrated in fig. 16A and 16B, the first main electrical terminal 128 is mated with the second main electrical terminal 134 while the first auxiliary electrical terminal 130 is separated from the second auxiliary electrical terminal 136. Thus, during the release phase of the illustrated electrical connector assembly 10, the high voltage circuit is closed and the HVIL is open.
Referring to fig. 17A and 17B, the first connector 112 has been moved relative to the second connector 114 a third distance 188 opposite the mating direction 156. Additionally, the latch 120 has rebounded to the closed position. Stop tab 166 is not in channel 168. The first connector 112 is shown in a pre-mated position with respect to the second connector 114.
In the state shown in fig. 17A and 17B, the first main electrical terminal 128 is separated from the second main electrical terminal 134, and the first auxiliary electrical terminal 130 is separated from the second auxiliary electrical terminal 136. Thus, during the pre-mating phase of the illustrated electrical connector assembly 110, the high voltage circuit is open and the HVIL is open.
Thus, to unmate the electrical connector assembly 110 from the mated position (shown in fig. 10A and 10B), the CPA 116 is first moved to the pre-lock position (as shown in fig. 11A and 11B) opposite the assurance direction 154. The release switch 164 moves to the open position (as shown in fig. 12A and 12B) and the first connector 112 moves opposite the mating direction 156 relative to the second connector 114. After moving the first distance 180, the first connector 112 stops moving farther (shown in fig. 13A and 13B). At this point, the HVIL is on. Then, the release switch 164 is moved to the closed position (shown in fig. 14A and 14B), and the first connector 112 is moved opposite the mating direction 156 relative to the second connector 114. After moving the second distance 184, the first connector 112 again stops moving farther (shown in fig. 15A and 15B). The release switch 164 moves to the open position (shown in fig. 16A and 16B) and the first connector 112 moves to the pre-mated position (shown in fig. 17A and 17B) opposite the mating direction 156 relative to the second connector 114. At this time, the high voltage circuit is opened.
The first connector 112 is unmated from the second connector 114 by linearly moving the first connector 112 opposite the mating direction 156. However, the stop tab 166 moves in a non-linear path, and the release switch 164 is used to change the position of the stop tab 166 in order to unmate the first connector 112 from the second connector 114.
To mate the electrical connector assembly 110, the process described above is reversed. However, the first and third stops 172, 186 include angled insertion guide surfaces 190 on their respective sides opposite the mating direction 156. Insertion guide surface 190 allows stop tab 166 to move past first stop 172 and third stop 186 without the operator having to manually change the position of release switch 164.
With the first connector 112 in the pre-mated position with respect to the second connector 114 (as shown in fig. 17A and 17B), the first connector 112 moves in the mating direction 156 with respect to the second connector 114. The stop tab 166 will engage an insertion guide surface 190 on the third stop 186, which will cause the release switch 164 to move to the open position. When the stop tab 166 moves past the third stop 186, the release switch 164 will spring back to the closed position (shown in fig. 15A and 15B). At this time, the high voltage circuit is closed. The first connector 112 continues to move in the mating direction 156 relative to the second connector 114 and the stop tab 166 will engage the insertion guide surface 190 on the first stop 172. This will cause the release switch 164 to move to the open position. When the stop tab 166 moves past the first stop 172, the release switch 164 will spring back to the closed position (shown in fig. 11A and 11B). At this point, the HVIL is also closed. CPA 116 is then moved relative to the latch in the assurance direction 154 to the assurance position (to the position shown in fig. 10A and 10B), which locks latch 120 in place.
Thus, the electrical connector assembly 110 allows the first connector 112 to mate with the second connector 114 using a direct linear push-in action. However, as the position of the release switch 164 is repeatedly changed, the first connector 112 is disengaged from the second connector 114.
The illustrated embodiment includes three stops 172, 182, and 186, but may include any desired number of stops. Additionally, the illustrated distances 180, 184, and 188 may have any desired relative magnitudes. In the illustrated embodiment, the release switch 164 moves back and forth between two positions. However, the release switch 164 may have more than two positions, if desired.
The principle and mode of operation of this invention have been explained and illustrated in its preferred embodiments. However, it must be understood that this invention may be practiced otherwise than as specifically explained and illustrated without departing from its spirit or scope.
Claims (20)
1. an electrical connector assembly comprising:
A first connector comprising a first electrical terminal;
A second connector comprising a second electrical terminal, the first and second connectors being movable from a mated position toward a unmated position, the second connector comprising a first stop, a second stop and a third stop; and
A connector position assurance member movable between an assurance position and a pre-lock position, the connector position assurance member including a stop tab, wherein:
The first blocking portion is positioned to engage the stop tab when the connector position assurance member is in the pre-lock position;
The second blocking portion is positioned to engage the stop tab when the first connector is located a first distance from the second connector; and
The third stop is positioned to engage the stop tab when the first connector is located at a second distance from the second connector.
2. The electrical connector assembly of claim 1, further comprising a latch on the first connector, the latch movable between a closed position where the latch engages the second connector to retain the first and second connectors in the mated position and an open position where the latch does not engage the second connector to retain the first and second connectors in the mated position.
3. the electrical connector assembly of claim 2, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the first blocking portion.
4. The electrical connector assembly of claim 2, wherein movement of the latch to the closed position causes the stop tab to move out of engagement with the second blocking portion.
5. The electrical connector assembly of claim 2, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the third blocking portion.
6. The electrical connector assembly of claim 2, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the first blocking portion, and wherein movement of the latch to the closed position causes the stop tab to move out of engagement with the second blocking portion.
7. The electrical connector assembly of claim 2, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the first blocking portion, movement of the latch to the closed position causes the stop tab to move out of engagement with the second blocking portion, and movement of the latch to the open position causes the stop tab to move out of engagement with the third blocking portion.
8. An electrical connector assembly comprising:
A first connector comprising a first electrical terminal;
A second connector comprising a second electrical terminal, the first and second connectors being movable from a mated position in which the first and second electrical terminals are connected, toward a unmated position in which the first and second electrical terminals are not connected, the second connector comprising a first, second and third stop; and
A connector position assurance member movable between an assurance position in which the first and second connectors are locked in the mated position and a pre-lock position in which the first and second connectors are not locked in the mated position, the connector position assurance member including a stop tab, wherein:
The first blocking portion is positioned to engage the stop tab and thereby prevent movement of the first connector relative to the second connector;
The second stop is positioned to engage the stop tab when the first connector is located at a first distance from the second connector and thereby prevent further movement of the first connector relative to the second connector from the mated position toward the unmated position; and
The third stop is positioned to engage the stop tab when the first connector is located at a second distance from the second connector and thereby prevent further movement of the first connector relative to the second connector from the mated position toward the unmated position.
9. The electrical connector assembly of claim 8, further comprising a latch on the first connector, the latch movable between a closed position where the latch engages the second connector to retain the first and second connectors in the mated position and an open position where the latch does not engage the second connector to retain the first and second connectors in the mated position.
10. The electrical connector assembly of claim 9, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the first blocking portion.
11. The electrical connector assembly of claim 9, wherein movement of the latch to the closed position causes the stop tab to move out of engagement with the second blocking portion.
12. the electrical connector assembly of claim 9, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the third blocking portion.
13. The electrical connector assembly of claim 9, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the first blocking portion, and wherein movement of the latch to the closed position causes the stop tab to move out of engagement with the second blocking portion.
14. The electrical connector assembly of claim 9, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the first blocking portion, movement of the latch to the closed position causes the stop tab to move out of engagement with the second blocking portion, and movement of the latch to the open position causes the stop tab to move out of engagement with the third blocking portion.
15. An electrical connector assembly comprising:
A first connector comprising a first main electrical terminal and a first auxiliary electrical terminal;
A second connector comprising a second main electrical terminal and a second auxiliary electrical terminal, the first and second connectors being movable from a mated position, in which the first and second main electrical terminals are connected in a high voltage circuit and the first and second auxiliary electrical terminals are connected in a high voltage interlock loop, toward a unmated position, in which the first and second main electrical terminals are not connected and the first and second auxiliary electrical terminals are not connected, the second connector comprising a first blocking portion, a second blocking portion and a third blocking portion; and
a connector position assurance member movable between an assurance position and a pre-lock position, the connector position assurance member including a stop tab, wherein:
The first blocking portion is positioned to engage the stop tab when the connector position assurance member is in the pre-lock position, wherein the first and second primary electrical terminals are connected and the first and second auxiliary electrical terminals are connected;
When the first connector is located at a first distance from the second connector, the second blocking portion is positioned to engage the stop tab, wherein the first and second primary electrical terminals are connected and the first and second auxiliary electrical terminals are not connected; and
The third blocking portion is positioned to engage the stop tab when the first connector is located at a second distance from the second connector, wherein the first and second primary electrical terminals are connected and the first and second auxiliary electrical terminals are not connected.
16. the electrical connector assembly of claim 15, wherein when the first connector is located a third distance from the second connector, the first and second main electrical terminals are not connected and the first and second auxiliary electrical terminals are not connected.
17. The electrical connector assembly of claim 15, further comprising a latch on the first connector, the latch movable between a closed position where the latch engages the second connector to retain the first and second connectors in the mated position and an open position where the latch does not engage the second connector to retain the first and second connectors in the mated position.
18. The electrical connector assembly of claim 17, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the first blocking portion.
19. The electrical connector assembly as recited in claim 17, wherein movement of the latch to the closed position causes the stop tab to move out of engagement with the second blocking portion.
20. the electrical connector assembly as recited in claim 17, wherein movement of the latch to the open position causes the stop tab to move out of engagement with the third blocking portion.
Applications Claiming Priority (2)
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US16/001,528 US10340632B1 (en) | 2018-06-06 | 2018-06-06 | Electrical connector assembly with staged release |
US16/001,528 | 2018-06-06 |
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CN110571567A true CN110571567A (en) | 2019-12-13 |
CN110571567B CN110571567B (en) | 2022-06-28 |
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CN201910484991.8A Active CN110571567B (en) | 2018-06-06 | 2019-06-05 | Staged release electrical connector assembly |
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US (1) | US10340632B1 (en) |
CN (1) | CN110571567B (en) |
DE (1) | DE102019202430B4 (en) |
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CN113224570A (en) * | 2020-01-20 | 2021-08-06 | 泰科电子(上海)有限公司 | Connector assembly with position assurance device |
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US10955487B2 (en) * | 2019-03-14 | 2021-03-23 | Te Connectivity Corporation | High voltage diagnostic connector with service disconnect |
DE102019219453A1 (en) * | 2019-12-12 | 2021-06-17 | Lear Corporation | Process for manufacturing electrical connectors |
CN211743556U (en) * | 2020-03-06 | 2020-10-23 | 东莞富强电子有限公司 | Plug electric connector |
US11594838B2 (en) * | 2020-04-28 | 2023-02-28 | Foxconn (Kunshan) Computer Connector Co., Ltd. | Connector assembly with connector position assurance |
KR20220043786A (en) * | 2020-09-29 | 2022-04-05 | 현대자동차주식회사 | Connector apparatus for battery |
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Also Published As
Publication number | Publication date |
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DE102019202430A1 (en) | 2019-12-12 |
US10340632B1 (en) | 2019-07-02 |
CN110571567B (en) | 2022-06-28 |
DE102019202430B4 (en) | 2024-02-15 |
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